A Simple Method to Determine the Reflex Latency During WBV
NCT ID: NCT01908439
Last Updated: 2013-09-04
Study Results
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Basic Information
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COMPLETED
NA
5 participants
INTERVENTIONAL
2013-08-31
2013-08-31
Brief Summary
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To achieve this goal, the investigators have averaged the electrical responses of the soleus muscle (sEMG and multi motor unit (MMU) potential) against the vertical force data obtained during all the six vibration frequencies tested in this study. The investigators have then combined all the averaged EMG data belonging to six different vibration frequencies to generate the 'cumulative averaged' sEMG and MMU for each subject. The investigators have also obtained the standard error for the cumulative averaged records which indicated the WBV-induced muscular reflex (WBV-IMR) latency.
Detailed Description
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Procedures During WBV, the subjects will be asked to stand upright on a vibration platform (PowerPlate Pro5, London, United Kingdom). Their hips and knees will be in a neutral position. Subjects will be barefooted, and no sponge or foam will be placed between the vibration platform and their feet (Figure 1). The whole plate oscillates with a linear movement upward and downward. Vibration amplitude is 2.2 mm. WBV frequencies will be varied randomly to cover the following six frequencies: 25, 30, 35, 40,45 and 50 Hz. Each frequency lasts for 60 seconds and there will be a 15 seconds rest in between different frequencies.
A load sensor (FC2331-0000-2000L Compression Load Sensor, France) will be fixed on the WBV platform in order to be able to determine induced muscular response latency. Subjects will be positioned on the WBV platform such that their right heel will be placed on the load sensor.
Recordings MMUs, surface EMG (sEMG) and force recordings will be simultaneously done using the Powerlab data acquisition system (ADInstruments, Oxford, United Kingdom). A sampling frequency of 40 kiloHertz (kHz) will be used. Data will be analyzed offline using the MATLAB (R2012a 7.14.0.739).
In order to record sEMG, Ag/AgCl electrodes \[KENDALL ® Arbo\] with a disc radius of 10 mm will be placed 20 mm apart on the right soleus muscle belly, on shaved skin cleaned with alcohol. The ground electrode will be placed on the lateral malleolus.
To record MMU activity, a pair of Teflon® insulated silver wires (75 µm in core diameter) will be used. About 3 mm of the tips of the silver wires will be stripped of their Teflon ® coating in order to be able to record the activity of several motor units. The pair of wires will be inserted into the right soleus muscle with a 25 G needle. Needle will be immediately withdrawn leaving the fish-hooked wires in the muscle. A lip-clip electrode will be used as the ground electrode.
All cables will be carefully taped to the skin to minimize mechanical artifacts.
The subjects will be instructed to relax their muscles throughout the recordings and were trained using EMG feedback to this end. WBV may impair the sense of balance and muscles may be activated to restore balance. To overcome this issue, the subjects will be familiarized with WBV with a 15 s session of WBV, the subjects will be asked to use the handles of the WBV device to secure their balance and the base of support (distance between the heels) will be adjusted as wide. The distance between the heels usually will be about 25 cm.
Filtering and Rectification regimens All force sensor recordings will be 5 Hz high-pass filtered. All sEMG recordings will be 80 - 500 Hz band-pass filtered (Butterworth 1st order) and full-wave rectified to overcome movement artifacts. All MMU recordings will be 100-5000 Hz band-pass filtered (Butterworth 1st order) and full-wave rectified.
WBV - induced muscular reflex (WBV-IMR) latency
In a previous study, right soleus muscle sEMG measurement and force sensor measurement that is placed under right heel during WBV were taken synchronously and it was found that vibration stimulation and MUAPs would be matched 1 to 1. In this study that is based on the previous observation, it is predicted that it is possible to calculate latency by using averaging method.
All MMU and sEMG data will be analyzed by applying respectively filtering, rectification and differentiation with MATLAB (R2012a 7.14.0.739). Data analysis will be performed in two stages:
1. Detection of the moment of mechanical stimulation threshold (Force Sensor Data Averaging): Force sensor data will be averaged by using Spike triggered averaging (STA) method. For this, 50 seconds of constant time intervals of preset vibration frequency in a WBV set will be used. All the positive peaks in both MMU and sEMG traces will be marked. For all the positive peaks, the force sensor trace will be segmented covering 75 ms previous positive peak. After, cumulative average of these 6 vibration sets will be averaged. The standard error on the cumulative averaged force records will be calculated. The lowest point of standard error on force sensor averaging graphic will be considered as the starting point of mechanical stimulation that triggers the muscle response.
2. Determination of the MUAP onset: EMG data averaging method and manual method (vibration stimulus and MUAP coupling) will be used.
Conditions
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Keywords
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Study Design
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NA
SINGLE_GROUP
BASIC_SCIENCE
NONE
Study Groups
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Whole-body vibration
A new method for muscle reflex latency measurement
whole-body vibration
High amplitude whole-body vibration
Interventions
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whole-body vibration
High amplitude whole-body vibration
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
* Healthy
* Right handed
Exclusion Criteria
* Left handed
20 Years
45 Years
ALL
Yes
Sponsors
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Bagcilar Training and Research Hospital
OTHER_GOV
Responsible Party
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Principal Investigators
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İlhan Karacan, MD
Role: STUDY_CHAIR
Bagcilar Training & Research Hospital
Locations
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Bağcılar Training & Research Hospital
Istanbul, , Turkey (Türkiye)
Countries
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Other Identifiers
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BEAH FTR-9
Identifier Type: -
Identifier Source: org_study_id